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References
Brockett T (1999) Nodule collector ubsystems. In: Proceedings of the international seabed authority’s workshop held in Kingston, Kingston, Jamaica, 3–6 August , pp 86–87
CIMR (2018) Research report on scale sampler of cobalt rich crust. Changsha, China, p 240. (in Chinese)
GSR (2019). https://economie.fgov.be/sites/default/files/Files/Entreprises/deep-see-mining/isa-eia-2018-gsrnod-2019.pdf
Handschuh R, Grebe H, Panthel J (2001) Innovative deep ocean mining concept based on flexible riser and self-propelled mining machines. In: Proceedings of the 4th ISOPE Ocean mining symposium, ISOPE, Szczeci and Cupertino, 23–27 September, pp 99–107
Ishiguro S et al (2013) Development of Mining Element Engineering Test Machine for Operating in Seafloor Hydrothermal Deposits. Mitsubishi Heavy Industries Technical Review:50–52
Kaufman R (1980) Deep ocean mining: 1980 status report. In: Proceedings of OCEANS’80. Seattle, Washington, USA, pp 49–54
Kim S, Cho S-g, Lee M (2019) Reliability-based design optimization of a pick-up device of a manganese nodule pilot mining robot using the Coandă effect. Journal of Mechanical Science and Technology 33(8):3665–3672
Liu F, Yang N (1999). An environmentally-friendly deep seabed mining system. In: Proceedings of the international seabed Authority’s workshop held in Kingston, Kingston, Jamaica, 3–6 August, p 199
Masuda N, Okamoto N, Kawai T (2014) Sea-floor massive Sulfide mining-its possibility and difficulties to emerge as a future business. In: Mine Planning and Equipment Selection. Springer, Cham, pp 105–112
McFarlane JAR, Brockett T (2008). Analysis of mining technologies developed in the 1970’s and 1980’s. In: Proceedings of polymetallic nodule mining technology: current status and challenges ahead, Chennai, 18–22 February, pp 54–67
Nautilusminerals (2015). http://www.nautilusminerals.com/irm/content/technology-overview
Okamoto N , Shiokawa S , Kawano S (2018) Current status of Japan’s activities for deep-sea commercial mining campaign. In: Proceedings of MTS/IEEE OCEANS Kobe Techno-Oceans (OTO), Kobe, Japan
Qiu C (2002) The study on the characteristics of cobalt crust and substrate rock for simulation. Central South University, Changsha, pp 6–10
Wang M (2015) Exploitation of deep sea solid mineral resources. Central South University Press, Changsha
Welling CG (1981) An advanced design deep sea mining system. In: Proceedings of offshore technology conference, Houston, 4–7 May, pp 247–25
Yamazaki T (2004) Geotechnical characteristics of seafloor massive sulfides and cobalt-rich manganese crusts and their influences on design of the mining systems. In: Proceedings of the 2004 International Symposium on Underwater Technology. Taipei, pp 381–385
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Wu, H. (2021). Collector and Crusher. In: Cui, W., Fu, S., Hu, Z. (eds) Encyclopedia of Ocean Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-10-6963-5_87-1
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DOI: https://doi.org/10.1007/978-981-10-6963-5_87-1
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